Abstract
AbstractThe objectives were to investigate the β-carotene status of dairy cows under various production systems, and to determine the effect of pre-partum β-carotene supplementation on their post-partum β-carotene status. Ten farms were selected from each of the three production systems, namely pasture-based, hay-based total mixed ration (TMR) and silage-based TMR. Twenty cows per farm were sampled in each system, and blood plasma β-carotene concentration was determined with a portable spectrophotometer (n = 200 cows per system). Mean blood β-carotene concentrations of pasture-fed cows were 5.54 mg/L, and were higher (P <0.05) than concentrations of cows on hay-based (2.98 mg/L) and maize silage-based TMR systems (1.71 mg/L); in β-carotene status, therefore, these systems were optimal, marginal, and deficient, respectively. In the second experiment, 10 cows received a hay-based control TMR, and 10 were supplemented with 1.2 g/day of β-carotene pre-partum from day -56 to calving and monitored until day 56 postpartum. The supplemented cows were in optimal β-carotene status until calving, with a minor carry-over effect until 10 days post partum, and then declined gradually in status until they needed supplementation. The β-carotene status between the groups differed from three weeks pre-partum to two weeks post partum, with the control group being marginal to deficient from three weeks pre-partum onwards. Forage type and its β-carotene content play a major role in the β-carotene status of cows and more research is needed on the potential storage and mobilization of β-carotene in cows.
Highlights
Continuous selection for high milk production has led to reduced reproductive performance and fertility, especially in Holstein herds
Park et al (1983) reported that the β-carotene content of lucerne hay cut at the flowering stage was reduced from 53 mg/kg dry matter (DM) to 21.8 mg/kg DM by increasing the time of sun drying from 48 hours to 96 hours
At advanced stages of growth, legumes are better sources of β-carotene compared with grasses, because of the higher proportion of leaves in legumes, supporting the current results
Summary
Continuous selection for high milk production has led to reduced reproductive performance and fertility, especially in Holstein herds. This situation has resulted in reduced profitability in high-producing herds (Butler, 2000; Berry et al, 2014). Fresh grass is the most important source of dietary vitamins and antioxidants such as βcarotene, which is the major natural precursor of vitamin A in cattle and of vitamin E, and contributes significantly to their health, fertility, and antioxidative status (Ballet et al, 2000). In many countries there are limitations to the grazing capacity for dairy cows and high-producing dairy herds follow zero grazing systems, in which the major fibre sources are ensiled forage and hay, which are low in vitamins and antioxidants and may increase the incidence of vitamin and antioxidant deficiencies (Wilkinson & Rinne, 2018)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
